CN102195158B - Connector - Google Patents

Abstract

The invention provides a connector capable of precisely and easily confirming whether or not a flexible print substrate to be electrically connected is placed at a predetermined position. The connector is adapted to temporarily hold a distal end of a flexible print substrate inserted from an opening of a base, and then hold the flexible print substrate by turning the operation lever and operating the connection terminals thereby pressure-welding movable contacts of connection terminals to connection portions of the flexible print substrate, in which a pair of elastic nails to be elastically engaged from sides with cutouts provided in both side edges of the distal end of the flexible print substrate inserted from the opening of the base for temporarily holding the flexible print substrate is formed in a protruding manner inside the opening in the base, and inspection holes for visually checking outer circumferential edges of the elastic nails are formed on a top surface of the base.

Description

Connector

Technical field

The present invention relates to connector, particularly relate to the connector of the structure that possesses the flexible printing substrate that can temporarily keep electrical connection.

Background technology

At present, as connector, example as Patent Document 1, disclose a kind of cable connector (1), it has: the shell (11) that (a) possesses the sidepiece (16) of the both sides of insert port (13) described in the top (15) of upside of insert port (13), this insert port of zoning (13) of inserting tabular cable (101) and zoning, (b) fill in this shell (11) and the terminal (51 being electrically connected with the wire (151) of described tabular cable (101), 61), engaging part (81), it is characterized in that, (c) described tabular cable (101) possesses protuberance for engagement (113), (d) described engaging part (81) possesses and the described jut for locking (83a) that for engagement, protuberance (113) engages, (e) at least a portion of the upper surface (83c) of described engaging part (81) locking with jut (83a) with for engagement when the upper surface butt of protuberance (113), from top, the upper surface of (15) (15a) is outstanding upward, in the time that locking engages with protuberance for engagement (113) with jut (83a), be positioned at below the upper surface (15a) of top (15).

Patent documentation 1:(Japan) JP 2008-277068 communique

But in above-mentioned cable connector, as indicated in its Fig. 8 and Figure 12, the inboard beams 83 of knee-action is limited to the engagement recess 112 of tabular cable 101 and is kept from top temporarily.Therefore, can not confirm from outside whether the leading section of described tabular cable 101 is properly positioned to the position of the regulation in described cable connector 1, is inconvenient, have the problem points that easily mistake connects.

Summary of the invention

The present invention proposes in view of described problem, and its object is, provides a kind of and can correctly and simply confirm whether the flexible printing substrate of electrical connection is positioned the position of regulation.

For solving described problem, the invention provides a kind of connector, it comprises: matrix, its front has the peristome of the leading section that can insert flexible printing substrate, and is provided with side by side from the described positive multiple patchholes that connect the back side with the spacing of regulation, splicing ear, it is equipped with an end and has the operating sheet of the roughly T word shape of moving contact, and this moving contact can be crimped on the connecting portion of the leading section that is located at side by side described flexible printing substrate, and described splicing ear is inserted into described patchhole, action bars, its upper surface taking described splicing ear is as rotating fulcrum rotatably support is in the rear side of described matrix, and there is the cam part of the operation receiving portion that can operate the other end that is positioned at described operating sheet, the interim leading section that keeps the described flexible printing substrate inserting from the peristome of described matrix, described action bars is rotated and operate described splicing ear, thus, make the moving contact of described splicing ear be crimped on the connecting portion of flexible printing substrate and keep, in peristome in described matrix, project a pair of elasticity claw, and be provided with the inspection opening of periphery edge that can visual described elasticity claw at the end face of matrix, described a pair of elasticity claw merges the notch of being located at its edge, both sides the leading section that is temporarily held in the flexible printing substrate inserting from the peristome of described matrix from side elastic card.

According to the present invention, form the periphery edge of the elasticity claw of elastically deformable in side in mode that can be visual from inspection opening.Therefore, by from the visual described elasticity claw of inspection opening, described elasticity claw is sticked in the notch of described flexible printing substrate, the confirmation that can simply and correctly position operation, be confirmed whether correctly to keep temporarily.

As embodiments of the present invention, also can configure at grade the axle center of described elasticity claw and the axle center of flexible printing substrate.

According to present embodiment, can not produce torsion etc. at elasticity claw, because elasticity claw correctly keeps flexible printing substrate temporarily, therefore, can further obtain the connector that positioning precision is high.

As other execution mode of the present invention, also can be configured to, the opening edge of inspection opening and periphery edge except the base portion of elasticity claw between form and overlook as the gap of U-shaped roughly.

According to present embodiment, overlook as the having or not of the gap of U-shaped roughly by confirmation, can easily judge whether flexible printing substrate is correctly held in connector temporarily, thereby improve workability and reliability.

As other execution mode of the present invention, also can, in the side of the integrally formed abutment wall of the mode continuous to bottom surface of the end face with from matrix, be equipped with elasticity claw to side.

According to present embodiment, the abutment wall of supporting elasticity claw with the end face from matrix to bottom surface continuous mode and integrally formed.Therefore, the bearing strength that obtains elasticity claw is high, has the connector of durability.

As different execution mode of the present invention, at least edge in outside that also can be in the relative edge, both sides of opening edge that forms inspection opening, is equipped with not the flank with elasticity claw butt to side.

According to present embodiment, owing to flank can being extended near the periphery edge of elasticity claw, therefore, the not only parts effect that strengthened, but also can reduce the gap being formed by the opening edge of inspection opening and the periphery edge of elasticity claw, can prevent the intrusion of dust etc.

As new execution mode of the present invention, the region of the lower side that is positioned at inspection opening that also can be in the bottom surface of matrix is provided with stage portion.

According to present embodiment, even if dust etc. invade inside from inspection opening, also described dust etc. can be discharged to outside from the gap forming via described stage portion, thereby improve contact reliability.

The invention provides a kind of manufacture method of connector, be shaped and form inspection opening and the elasticity claw of described matrix by the model of upper and lower two directions.

According to the present invention, owing to forming inspection opening and elasticity claw by the model of upper and lower two directions, therefore, not only can reduce manufacturing cost, but also it is few to have manufacturing process, the effect of the manufacture method of the connector that productivity ratio is high.

Brief description of the drawings

Fig. 1 (A), 1 (B) are the stereograms that represents the operation front and back of the first execution mode of connector of the present invention;

Fig. 2 (A), 2 (B) are the stereograms arriving from a different perspective of the operation front and back of the connector shown in presentation graphs 1;

Fig. 3 is the exploded perspective view of the connector shown in Fig. 1;

Fig. 4 is the exploded perspective view of the connector shown in Fig. 2;

Fig. 5 (A), 5 (B) are the stereograms of the splicing ear shown in Fig. 3, Fig. 4;

Fig. 6 (A), 6 (B), 6 (C) are illustrated in the plane graph that connects the operation of flexible printing substrate on the connector of Fig. 1;

Fig. 7 (A), 7 (B), 7 (C) are illustrated in the profile that connects the operation of flexible printing substrate on the connector of Fig. 1;

Fig. 8 (A), 8 (B), 8 (C) are illustrated in the profile that connects the state of flexible printing substrate on the connector of Fig. 1 that surface is installed on printed base plate;

Fig. 9 (A), 9 (B) are illustrated in the plane graph and the section plan that on the connector of Fig. 1, have connected the state of flexible printing substrate;

Figure 10 (A), 10 (B) are illustrated in the plane graph and the section plan that on the connector of Fig. 1, have connected the state of different flexible printing substrates;

Figure 11 (A), 11 (B) are illustrated in the plane graph and the section plan that on the connector of Fig. 1, have connected improperly the state of flexible printing substrate;

Figure 12 is the plane graph that represents to have connected on the connector of second embodiment of the invention the state of flexible printing substrate.

Description of reference numerals

10 connectors

11 matrixes

12 peristomes

13 patchholes

17 elasticity wrists

19 axle supporting recesses

22 are pressed into and use flank

23 inspection openings

24 elasticity claws

25 abutment wall

26a, 26b flank

27 stage portion

30 splicing ears

31 1 ends

32 supports

33 operating sheets

34 the other end

35 engagement claws

36 moving contacts

37 operation receiving portions

38 anti-avulsion claws

39 rotation receiving portions

40 action bars

41 rotate axial region

42 cam part

43 through holes

50 flexible printing substrates

52 connecting portions

53 engaging notchs

Bight is used in 54 engagements

55 printed base plates

Embodiment

According to the execution mode of the brief description of the drawings connector of the present invention of Fig. 1～Figure 12.

As shown in Fig. 1～Figure 11, the connector 10 of the first execution mode is roughly made up of matrix 11, splicing ear 30, action bars 40, and flexible printing substrate 50 is electrically connected with other printed base plate 55 (with reference to Fig. 8).

As shown in Figures 3 and 4, matrix 11 is provided with the spacing of regulation the multiple patchholes 13 that penetrate into the back side from its positive peristome 12 side by side.In addition, be equipped with the roughly receiving portion 14 for guiding of C word shape of cross section for guiding the flexible printing substrate 50 inserting from described peristome 12 in face side.Described guiding is formed with respectively the conical surface 15 by receiving portion 14 in its relative opening medial margin portion.In addition, the outside in described guiding by receiving portion 14, is fixed with the roughly fixing metalwork 16 of using of L word shape of cross section for preventing that floating of matrix 11 is pressed into.

In addition, as shown in Figure 4, described matrix 11 is extended with respectively elasticity wrist 17 from the edge of its both sides end face abreast to rear side.Inside the interior front end in face of described elasticity wrist 17, edge is formed with the guiding conical surface 18, and, be formed with axle supporting recess 19 in its inboard.In addition, described matrix 11 is extended with abreast guide plate 20 from the edge, below at its back side to described elasticity wrist 17.On described guide plate 20, be provided with the gathering sill 21 being communicated with described patchhole 13.And, to be equipped with in side and to be pressed into flank 22 along described gathering sill 21 and the mode that is positioned at the oblique upper of described gathering sill 21.

In addition, described matrix 11 is respectively equipped with inspection opening 23 that can visual elasticity claw 24 near the both side ends of its plane.Described inspection opening 23 examples are formed as following shape as shown in Figure 9, remove the base portion of described elasticity claw 24, periphery edge that can visual described elasticity claw 24, and the shape in bight 54 for engagement that also can visual flexible printing substrate 50 described later.Particularly, owing to forming the roughly gap of U-shaped between inspection opening 23 and elasticity claw 24, therefore, can correctly identify the position of elasticity claw 24 and then the position of identification flexible printing substrate 50 by the shape in described gap.In addition, as shown in Fig. 8 (B), 8 (C), the base portion of described elasticity claw 24 extends to face side from the side of the abutment wall that continuous mode forms to bottom surface of the end face with from matrix 11 25.Therefore, obtain having the described elasticity claw 24 of high bearing strength.

And as shown in Fig. 8 (A), described matrix 11 is extended with flank 26a, 26b to the inside from the relative edge, both sides of being located at the peripheral edge portion of described inspection opening 23 of its end face.Particularly, have and can prevent the intrusion of dust etc. and described elasticity wrist 24 strain can butt laterally position and shape yet even if be positioned at the described flank 26 in outside.

In addition, the region of the lower side that is positioned at described elasticity claw 24 in the bottom surface of described matrix 11 is formed with shallow stage portion 27.Between the bottom surface of the surface of the printed base plate 55 of therefore, installing at the matrix 11 of connector 10 of the present invention and the stage portion 27 of described matrix 11, form gap 28.Consequently, though have for example dust etc. invade from inspection opening 23 inner, the advantage that also it can be discharged from described gap 28.

As shown in Figure 5, splicing ear 30 can be inserted into patchhole 13 with an end 31 of projection from the gathering sill 21 of described matrix 11 by possessing engaging, project the operating sheet 33 of the roughly T word shape with support 32 from intermediate portion, and edge is provided with claw 35 for engagement below its other end 34.In addition, in an end of described operating sheet 33, moving contact 36 is darted at lower side, and its other end is made as to operation receiving portion 37.In addition, described splicing ear 30 forms claw 38 for anti-avulsion in the mode of the base portion to the outstanding support 32 of thickness of slab direction.And, between described the other end 34 and described anti-avulsion are with claw 38, are formed with and rotate by receiving portion 39.

And in the time making described splicing ear 30 along gathering sill 21 slippages of described matrix 11 and be inserted into patchhole 13, anti-avulsion is limited to and is pressed into flank 22 with claw 38.And then in the time being pressed into splicing ear 30, its engagement is limited to the edge, below of matrix 11 with claw 35, is positioned in the position of regulation.

As shown in Figures 3 and 4, behaviour's actuating rod 40 is equipped with on same axle center at both sides end face and rotates axial region 41,41.In addition, described action bars 40 is provided with the cam part 42 (with reference to Fig. 7) of the operation receiving portion 37 for operating described splicing ear 30 in one-sided edge side by side with the spacing of regulation, and is provided with side by side the through hole 43 that can insert described operation receiving portion 37 in the position corresponding with described cam part 42.

Described action bars 40 inserts the operation receiving portion 37 of splicing ear 30 at its through hole 43, along the upper surface of splicing ear 30, described action bars 40 is slided, and has pressed operation receiving portion 37 by cam part 42, is pressed into the state that maintains strain.Thus, described cam part 42 is embedded in the receiving portion 39 for rotation of splicing ear 30, and rotates axial region 41 and be embedded in the axle supporting recess 19 of matrix 11, supports described action bars 40 in rotating mode.

As shown in Figures 1 and 2, the flexible printing substrate 50 of electrical connection is provided with multiple connecting portions 52 at its free end side by side on the leading section surface of posting stiffener 51.And, be provided with engaging use notch 53 in the edge, both sides of described leading section, and cut out engagement use bight 54.

Secondly, connect being installed on surface on the described connector 10 of printed base plate 55, the method for fixing flexible dorsalis medullae spinalis extension base 50 describes (with reference to Fig. 6 and Fig. 7).

First, insert the leading section of flexible printing substrate 50 from the positive peristome 12 of matrix 11, make elasticity claw 24 strain laterally, make it be sticked in engaging notch 53 interim maintenance.Now, in the situation that being correctly inserted into assigned position, as shown in Figure 9, engagement that not only can visual flexible printing substrate 50 from inspection opening 23 is with bight 54, but also can the visual gap being formed by the periphery edge except the base portion of elasticity claw 24 and inspection opening 23, can identify correct location.

And in the time that by described action bars 40, centered by the axle center of rotating axial region 41, rotation is pressed, as shown in Figure 7, cam part 42 has been pressed the operation receiving portion 37 of splicing ear 30 simultaneously.Therefore, taking support 32 as fulcrum, roughly the operating sheet 33 of T word shape tilts, and is clamped the leading section of flexible printing substrate 50 by moving contact 36 and an end 31, and moving contact 36 is crimped on connecting portion 52 conducting.

In addition, even if the engaging of flexible printing substrate 50 has deviation by the size of notch 53, example as shown in figure 10, even if engaging is excessive with notch 53, as long as can correctly be positioned at the position of regulation, also can and correctly judge by the simple shape in the gap that formed by inspection opening 23 and elasticity claw 24.

Particularly there is following advantage, that is, if from the lower side light irradiation of printed base plate 55,, by judging the shape in the gap that light passes through, can further judge clearly the positioning states of flexible printing substrate 50.

If just in case the insertion of flexible printing substrate 50 is incorrect, as shown in figure 11, bight 54 folk prescription contact resilient claws 24 for the engagement of flexible printing substrate 50, gap that can not the visual roughly U word shape being formed by the periphery edge of elasticity claw 24 and the opening edge of inspection opening 23, therefore, correctly whether locate and become very clear.

In addition, described inspection opening 23 is not limited to above-mentioned shape, and example the second execution mode as shown in figure 12 also can be for being made as overall width dimensions roughly situation uniformly.

According to present embodiment, there is the engagement of visual flexible printing substrate 50 clearly and use bight 54, and confirm that operation is further easy to advantage.

Utilizability in industry

The connector of present embodiment is not limited to described connector, can certainly be applicable to other connector.

Claims (6)

1. a connector, it comprises:

Matrix, its front has the peristome of the leading section that can insert flexible printing substrate, and is provided with side by side from the described positive multiple patchholes that connect the back side with the spacing of regulation;

Splicing ear, it is equipped with an end and has the operating sheet of the roughly T word shape of moving contact, and this moving contact can be crimped on the connecting portion of the leading section that is located at side by side described flexible printing substrate, and described splicing ear is inserted into described patchhole;

Action bars, its upper surface taking described splicing ear is as rotating fulcrum rotatably support is in the rear side of described matrix, and has the cam part of the operation receiving portion that can operate the other end that is positioned at described operating sheet,

The interim leading section that keeps the described flexible printing substrate inserting from the peristome of described matrix, described action bars rotated and operate described splicing ear, thus, making the moving contact of described splicing ear be crimped on the connecting portion of flexible printing substrate and keep, it is characterized in that

In peristome in described matrix, project a pair of elasticity claw, and be provided with the inspection opening of periphery edge that can visual described elasticity claw at the end face of matrix, described a pair of elasticity claw merges the notch of being located at its edge, both sides the leading section that is temporarily held in the flexible printing substrate inserting from the peristome of described matrix from side elastic card

The opening edge of inspection opening and the periphery edge except base portion of elasticity claw between form and overlook as the gap of U-shaped roughly.

2. connector as claimed in claim 1, is characterized in that, the axle center of the axle center of described elasticity claw and flexible printing substrate is in the same plane.

3. connector as claimed in claim 1 or 2, is characterized in that, in the side of the integrally formed abutment wall of the mode continuous to bottom surface of the end face with from matrix, is equipped with elasticity claw to side.

4. connector as claimed in claim 1 or 2, is characterized in that, at least edge in outside in the relative edge, both sides of opening edge that forms inspection opening is equipped with not the flank with elasticity claw butt to side.

5. connector as claimed in claim 1 or 2, is characterized in that, the region of the lower side that is positioned at inspection opening in the bottom surface of matrix is provided with stage portion.

6. a manufacture method for connector, is characterized in that, by inspection opening and the elasticity claw of the matrix described in the model shaping formation claim 1 or 2 of upper and lower two directions.